Specific Simultaneity
The photographs illustrate
how atomic objects move simultaneously, at least within the earth's gravity.
If we assume that gravitation extends to all cosmic bodies, we also have
to assume that the simultaneity of motion extends throughout the whole
cosmos.
Constituents of the Moment
The atomic (or cosmic) moment is determined by the proton and the length of the quantum leap is determined by the load the proton carries. The duration of the static periods of immobility, in which all protons involved recharge with energy according to their initial impetus, is a normal cosmic constant dependent on the definite formal characteristics of the proton.The shorter moments that constitute the longer atomic moments are called subatomic moments. Subatomic moments divide geometrically, first in two parts, then in four, then in eight and so on, until the smallest division is reached in the photonic moment. The photonic moment is simply the compression/decompression action of photon particles, the smallest energy particles. The photonic moment, the shortest period of immobility, may also be identified as Planck's Constant.
It is important to note that during the atomic moment sub-atomic particles may jump or spin around a nucleus; they may gain or lose energy, or they may perform all these complex actions instantaneously and discontinuously. Nevertheless, all the actions of the various particles will be performed simultaneously within the duration of the atomic moment.
Presented for the Web by Gordon Smith and Adrien Boisvert.
Copyright 1996: Gordon Smith. E:mail enquiries, questions, criticism to: gds@islandnet.com